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Then, you have to press the “scan” button for 4 to 5 seconds.

Then, you have to press the “scan” button for 4 to 5 seconds.

We guarantee the non-contact thermometer FR800 2 years warranty. Infrared Thermometer Easy to operate Stores last 30 reading Can Measure In C & F, High Fever Alarm, Very poor always shows wrong readings total waste of money. 100 % infection-free. AccuSure Fr800 Thermometer (White) by AccuSure.

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If you want to know more or withdraw your consent to all or some of the cookies, please refer to the, Manual will be automatically added to "My Manuals", Removal and Reinstallation of the Operation Panel or the Front Covers, Removal of the Front Cover (Lower Side) (FR-F820-01540(37K) or Lower, FR-F840-00770(37K) or Lower), Reinstallation of the Front Covers (FR-F820-01540(37K) or Lower, FR-F840-00770(37K) or Lower), Removal of the Front Cover (Upper Side) (FR-F820-01540(37K) or Lower, FR-F840-00770(37K) or Lower), Removal of the Front Cover (Lower Side) (FR-F820-01870(45K) or Higher, FR-F840-00930(45K) or Higher), Removal of the Front Cover (Upper Side) (FR-F820-01870(45K) or Higher, FR-F840-00930(45K) or Higher), Reinstallation of the Front Covers (FR-F820-01870(45K) or Higher, FR-F840-00930(45K) or Higher), Installation of the Inverter and Enclosure Design, Standard Environmental Specifications of the Inverter, Explosive, Flammable Gases / High Altitude, Cooling System Types for Inverter Enclosure, Arrangement of the Ventilation Fan and Inverter, Shift and Removal of a Rear Side Installation Frame, Terminal Layout of the Main Circuit Terminals, Wiring of Power Supply and the Motor, LD Rating (Pr.570 Multiple Rating Setting = "1"), SLD Rating (Pr.570 Multiple Rating Setting = "0"), Earthing (Grounding) Methods and Earthing (Grounding) Work, Common Terminals of the Control Circuit (SD, PC, 5, SE), Cable Size for the Control Circuit Power Supply (Terminals R1/L11 and S1/L21), When Using Separate Power Supplies for the Control Circuit and the Main Circuit, Confirming the 24 V External Power Supply Input, Specification of the Applicable 24 V External Power Supply, Starting and Stopping the 24 V External Power Supply Operation, When Supplying 24 V External Power to the Control Circuit, Operation While the 24 V External Power Is Supplied, Mounting the Operation Panel or the Parameter Unit On the Enclosure Surface, Connection Example with the FR-BR-(H) Resistor Unit, Connection Example with the MT-BR5 Type Resistor Unit, Connection of the High Power Factor Converter (FR-HC2), Connection of the Power Regeneration Common Converter (FR-CV), Connection of the Power Regeneration Converter (MT-RC), Electro-Magnetic Interference (EMI) and Leakage Currents, Selecting the Rated Sensitivity Current for the Earth Leakage Circuit Breaker, Countermeasures against Inverter-Generated EMI, Application of the Specific Consumer Guidelines, Harmonic Content (Values of the Fundamental Current Is 100%), Rated Capacities and Outgoing Harmonic Currents of Inverter-Driven Motors, Handling of the Magnetic Contactor On the Inverter's Output Side, Handling of the Manual Contactor On the Inverter's Output Side, Inverter Input Side Magnetic Contactor (MC), Countermeasures against Deterioration of the 400 V Class Motor Insulation, Interlock Method Which Uses the Inverter Status Output Signals, Components of the Operation Panel (FR-DU08), Correspondences Between Digital and Actual Characters, Monitoring of Output Current and Output Voltage, Easy Operation Mode Setting (Easy Setting Mode), Frequently-Used Parameters (Simple Mode Parameters), Operating at a Set Frequency (Example: Operating at 30 Hz), Using the Setting Dial Like a Potentiometer to Perform Operation, Setting the Frequency By Switches (Multi-Speed Setting), Setting the Frequency with Analog Signals (Voltage Input), Using an Analog Signal (Current Input) to Give a Frequency Command, Basic Operation Procedure (External Operation), Using the Frequency Set By the Operation Panel, Setting the Frequency By Switches (Multi-Speed Setting) (Pr.4 to Pr.6), To Set the Frequency with Analog Signals (Voltage Input), Changing the Frequency (60 Hz, Initial Value) at the Maximum Voltage Input (5 V, Initial Value), To Use an Analog Signal (Current Input) to Give a Frequency Command, Changing the Frequency (60 Hz, Initial Value) at the Maximum Current Input (At 20 Ma, Initial Value), Basic Operation Procedure (JOG Operation), Performing JOG Operation Using External Signals, Frequncy Jump/Frequency Direction Function, Stall Prevention / Multi-Speed Setting Function, Automatic Restart Functions/Current Detection Function, PID Control Function/Current Average Value Monitor Function, Second Motor Constants/Multiple Rating Function, Increased Magnetic Excitation Deceleration Function, PID Control/Speed Smoothing Control/Analog Remote Output Function, Maintenance Function/Electronic Thermal O/L Relay Function, Motor Constants Function/Pid Control Function, Load Characteristic Fault Detection Function, PID Gain Tuning Function / Cleaning Function, Changing Parameter Settings in the Group Parameter Display, Changing to the Grouped Parameter Numbers, Setting of Acceleration/Deceleration Time and Acceleration/Deceleration Pattern, Monitor Display and Monitor Output Signal, Operation Via Communication and Its Setting, I/O Signal Operation During the Test Operation, PM Motor Control Test Operation (Pr.800="9"), Setting the Motor Capacity and the Number of Motor Poles (Pr.80, Pr.81), Valid/Invalid Status of Monitor Outputs During the Test Run, Changing the Control Method with External Terminals (RT Signal, X18 Signal), Selecting the Advanced Magnetic Flux Vector Control, Driving Two Motors Under Advanced Magnetic Flux Vector Control, Keeping the Motor Speed Constant When the Load Fluctuates (Speed Control Gain), Selecting the PM Motor Control By Performing Parameter Initialization On the Operation Panel, Initializing the Parameters Required for the PM Motor Control (Pr.998), Performing High-Accuracy, Fast-Response Control (Gain Adjustment for PM Motor Control), Adjusting the Speed Control Gain Manually, Gain Adjustment of Current Controllers for the D Axis and the Q Axis, Stabilizing Torque Detection (Pr.827, Pr.837), Reset Selection/Disconnected PU Detection/Pu Stop Selection, How to Restart After Stopping with Input From the PU During External Operation (PU Stop (PS) Release Method), Disabling the Setting Dial and Key Operation of the Operation Panel (Press and Hold [MODE] (2 S)), Setting Dial Potentiometer Mode/Key Lock Operation Selection, Using the Setting Dial Like a Potentiometer to Set the Frequency, Frequency Change Increment Amount Setting, Changing the Parameter Initial Values and Setting Ranges, Writing Parameters Only During Stop (Pr.77 = "0" Initial Value), Writing Parameters During Operation (Pr.77="2"), Parameter Reading/Writing Restriction Level (Pr.296), Password Function/Registering a 4-Digit Password Can Restrict Parameter Reading/Writing, Parameter Operations During Password Locking/Unlocking, PID Monitor Indicator Setting (Pr.999 = "1 or 2"), GOT Initial Setting (PU Connector) (Pr.999 = "10, 12"), GOT Initial Setting (RS-485 Terminals) (Pr.999 = "11, 13"), Rated Frequency (Pr.999 = "20 (50 Hz), 21 (60 Hz)"), Display of Simple Mode Parameters and Extended Parameters (Pr.160), Extended Parameter Display and User Group Function, User Group Function (Pr.160, Pr.172 to Pr.174), Clearing a Parameter From a User Group (Pr.174), Registering a Parameter in a User Group (Pr.173), Changing the PWM Carrier Frequency (Pr.72), PWM Carrier Frequency and Soft-Pwm Control, PWM Carrier Frequency Automatic Reduction Function (Pr.260), Life Alarm Display and Signal Output (Y90 Signal, Pr.255), Life Display of the Inrush Current Limit Circuit (Pr.256) (Standard Models), Life Display of the Control Circuit Capacitor (Pr.257), Life Display of the Main Circuit Capacitor (Pr.258, Pr.259) (Standard Models), Pr.557 Current Average Value Monitor Signal Output Reference Current Setting, (F) Setting of Acceleration/Deceleration Time and Acceleration/Deceleration Pattern, Setting the Acceleration and Deceleration Time, Changing the Setting Range and Increments of the Acceleration/Deceleration Time (Pr.21), Setting Multiple Acceleration/Deceleration Times (RT Signal, Pr.44, Pr.45, Pr.147), Setting the Acceleration/Deceleration Time in the Low-Speed Range (Pr.791, Pr.792), Linear Acceleration/Deceleration (Pr.29 = "0" Initial Value), S-Pattern Acceleration/Deceleration a (Pr.29 = "1"), S-Pattern Acceleration/Deceleration B (Pr.29 = "2"), Backlash Measures (Pr.29 = "3", Pr.140 to Pr.143), Variable-Torque Acceleration/Deceleration (Pr.290 = "6"), Starting Frequency and Start-Time Hold Function, (D) Operation Command and Frequency Command, External Operation Mode (Pr.79 = "0" (Initial Value), "2"), Pu/External Combined Operation Mode 1 (Pr.79 = "3"), Pu/External Combined Operation Mode 2 (Pr.79 = "4"), Switching Operation Mode By External Signal (X16 Signal), Switching the Operation Mode By External Signals (X65, X66 Signals), Selecting the Operation Mode for Power-On (Pr.340), Startup in Network Operation Mode at Power-On, Selection of Command Source in Network Operation Mode (Pr.550), Start Command Source and Frequency Command Source During Communication Operation, Selection of the Command Source of the PU Operation Mode (Pr.551), Selection of Control Source in Network Operation Mode (Pr.338, Pr.339), Command Source Switchover Via External Terminals (X67), Adjustment of Pulse Train and Frequency (Pr.385, Pr.386), How to Calculate the Input Pulse Division Scaling Factor (Pr.384), Speed Synchronized Operation By Pulse Input/Output, Speed Synchronized Operation Specification, Input Compensation of Multi-Speed Setting (Pr.28), Multi-Speed Setting for 4Th Speed or More (Pr.24 to Pr.27, Pr.232 to Pr.239), Motor Overheat Protection (Electronic Thermal O/L Relay), Electronic Thermal O/L Relay Operation Characteristic for Induction Motor (Pr.9, E.THM), Electronic Thermal O/L Relay When Using IPM Motor (Pr.9, E.THM), Set Two Types of Electronic Thermal O/L Relays (Pr.51), Electronic Thermal O/L Relay Pre-Alarm (TH) and Warning Signal (THP Signal), Motor Permissible Load Level Setting (Pr.607, Pr.608), External Thermal Relay Input (OH Signal, E.OHT), PTC Thermistor Input (Pr.561, Pr.1016, E.PTC), Overheat Protection to Match the Characteristic of the Motor (Pr.600 to Pr.604, Pr.692 to Pr.696), Cooling Fan Operation Command Signal (Y206 Signal), Cooling Fan Operation Control (Pr.244 = "1" (Initial Value), "101 to 105"), Varying the Activation Level of the Undervoltage Protective Function, Input Phase Loss Protection Selection (Pr.872) (Standard Models), Output Phase Loss Protection Selection (Pr.251), Setting the Retry Function (Pr.67, Pr.68), Selecting Retry Generating Faults (Pr.65), An Example Connection Diagram of the Emergency Drive, Emergency Drive Operation Selection (Pr.523, Pr.524), Retry Operation During Emergency Drive (Pr.515, Pr.514), Electronic Bypass During Emergency Drive (Pr.136, Pr.139, Pr.57), Operation of Protective Functions During Emergency Drive, PID Control During Emergency Drive Operation, Limiting the Output Frequency (Maximum/Minimum Frequency), Setting the Maximum Frequency (Pr.1, Pr.18), Avoiding the Mechanical Resonance Points (Frequency Jump), Setting the Stall Prevention Operation Level (Pr.22), Disabling the Stall Prevention Operation and Fast-Response Current Limit According to Operating Conditions (Pr.156), Adjusting the Stall Prevention Operation Signal Output and Output Timing (OL Signal, Pr.157), Setting for Stall Prevention Operation in the High-Frequency Range (Pr.22, Pr.23, Pr.66), Setting Multiple Stall Prevention Operation Levels (Pr.48, Pr.49), Stall Prevention Operation Level Setting (Analog Variable) From Terminal 1 (Terminal 4) (Pr.148, Pr.149, Pr.858, Pr.868), Trip During Stall Prevention Operation (Pr.874), Automatic Measurement of the Load Characteristics Reference (Load Characteristics Measurement Mode) (Pr.1480), Load Characteristics Setting (Pr.1481 to Pr.1487), Load Fault Detection Setting (Pr.1488 to Pr.1491), (M) Monitor Display and Monitor Output Signal, Speed Display and Rotations Per Minute Setting, Monitor Indicator Selection Using Operation Panel or Via Communication, Monitor Description List (Pr.52, Pr.774 to Pr.776, Pr.992), Displaying the Set Frequency During Stop (Pr.52), Monitor Display for Operation Panel (Pr.52, Pr.774 to Pr.776), Operation Panel (FR-DU08) I/O Terminal Monitor (Pr.52), Operation Panel Setting Dial Push Display (Pr.992), Cumulative Energization Time and Actual Operation Time Monitor (Pr.171, Pr.563, Pr.564), Cumulative Power Monitor and Clear (Pr.170, Pr.891), Hiding the Decimal Places for the Monitors (Pr.268), Minus Sign Display for the Monitors (Pr.290), Monitor Display Selection for Terminals FM/CA and AM, High-Speed Pulse Train Output Circuit (Example of Connection to Pulse Counter), Monitor Display Selection for FM/CA Terminals and AM, Calibration Procedure for Terminal FM When Using the Operation Panel (FR-DU08), Adjusting the Response of Terminal CA (Pr.869), Terminal CA Calibration (C0 (Pr.900), C8 (Pr.930) to C11 (Pr.931)), Adjusting the Response of Terminal AM (Pr.867), Average Power Saving Monitor ([3 Average Power Saving], [4 Average Power Saving Rate], [5 Average Power Cost Savings]), Power Saving Real-Time Monitor ([1 Power Saving] and [2 Power Saving Rate]), Cumulative Energy Saving Monitors ([6 Power Saving Amount], [7 Power Cost Saving], [8 Annual Power Saving Amount], [9 Annual Power Saving Savings]), Estimated Power Value in Commercial Power Supply Operation (Pr.892, Pr.893, Pr.894), Annual Power Saving Amount and Power Cost Savings (Pr.899), Adjusting the Output Terminal Response Level (Pr.289), Inverter Operation Ready Signals (RY Signal) and Inverter Running Signals (RUN, RUN3 Signals), Output Frequency Detection (FU Signal, FU2 Signal, Pr.42, Pr.43, Pr.50), Output Up-To-Frequency Sensitivity (SU Signal, Pr.41), Output Current Detection (Y12 Signal, Pr.150, Pr.151, Pr.166, Pr.167), Zero Current Detection (Y13 Signal, Pr.152, Pr.153), Remote Output Data Retention (REM Signal, Pr.495), Remote Output Setting (REM Signal, Pr.496, Pr.497), Analog Remote Output Data Retention (Pr.655), Pulse Increment Setting for Output Power (Y79 Signal, Pr.799), Control Circuit Temperature Detection (Pr.663, Y207 Signal), (T) Multi-Function Input Terminal Parameters, Mitsubishi Electric FR-A800 Instruction Manual, Mitsubishi Electric FR-A800 Safety Stop Function Instruction Manual, Inverter Mitsubishi Electric FR-F820-00077 Instruction Manual, Inverter Mitsubishi Electric FR-F820-00046 Installation Manuallines, Inverter Mitsubishi Electric FR-F820-00046 Instruction Manual, Inverter Mitsubishi Electric FR-F700 Series Instruction Manual, Inverter Mitsubishi Electric FR-F700 Manual, Inverter Mitsubishi Electric FR-F720P-0.75K to 110K Instruction Manual, Inverter Mitsubishi Electric FR-F720P-0.75K Instruction Manual, Inverter Mitsubishi Electric FR-F740 EC Instruction Manual, Inverter Mitsubishi Electric FR-F720-0.75K to 110K Instruction Manual, Inverter Mitsubishi Electric FR-F740-00023 Instruction Manual, Inverter Mitsubishi Electric FR-F740-00023 Installation Manuallines, Inverter Mitsubishi Electric FR-F720-00046 Installation Manuallines, Inverter Mitsubishi Electric FR-F720-00046 Instruction Manual, Page 23: Removal And Reinstallation Of The Operation Panel, Page 29: Cooling System Types For Inverter Enclosure, Page 32: Heatsink Protrusion Attachment Procedure, Page 73: Leakage Currents And Countermeasures, Page 92: Changing The Parameter Setting Value, Page 93: Monitoring Of Output Current And Output Voltage, Page 297: Output Current Detection Function, Page 442: Wiring And Configuration Of Pu Connector, Page 555: Inverter Generates Abnormal Noise, Page 556: Motor Generates Heat Abnormally, Page 558: Operation Mode Is Not Changed Properly, Page 560: Unable To Write Parameter Setting, Page 566: Checking The Inverter And Converter Modules, Page 576: Insulation Resistance Test Using Megger, Page 591: Dedicated Motor Outline Dimension Drawings.



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